1) thermal wear
热磨损
1.
The paper summarizes the formation,movement model of the debris and grain,the condition and mechanism of the oxides formation in the course of thermal wear of the metal composites.
综述了金属基复合材料热磨损过程中碎片颗粒的形成和运动模型,氧化物产生的条件及形成机理,分析了氧化物釉层形成的具体阶段及影响因素,并在介绍有关氧化物釉层研究现状的基础上,展望了未来金属基复合材料热磨损过程中有关氧化物研究的趋势。
2.
In this paper, the experiments of both the TG-DTA and the thermal wear of the model 1-2-3 friction material have been made and the results have been analyzed and synthesized to the thermal wear model.
对1 2 3新型摩擦复合材料进行热失重分析试验和热磨损试验,分析处理试验结果,建立了1 2 3新型摩擦材料的热磨损模型。
2) Abrasive wear at elevated temperature
热磨料磨损
3) heat wear resistance
抗热磨损
1.
The effect of the heating treatment technics on the heat wear resistance was also investigated.
结果表明:850℃+700℃退火处理可使该合金在400℃的高温工况条件下具有良好的抗热磨损性能。
4) over-heating erosion
过热磨损
5) erosion hot spot
磨损热点
6) heating and rubbing method
加热磨损法
补充资料:负温度系数热敏电阻陶瓷(见热敏陶瓷)
负温度系数热敏电阻陶瓷(见热敏陶瓷)
thermo-sensitive ceramics with negative temperature coefficient
负温度系数热敏电阻陶瓷thermo一sensitiveeeramies with negative temperature eoeffieient在某一特定温度范围,电阻率随温度的升高而明显减小的热敏陶瓷。简称NTC陶瓷。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条